determine size of rectangle
To determine the size of rectangle, it was required to be able to determine who would be the neighboring points. A neighbor is a point that would make the exterior of the rectangle, not the cross-section. Finding the neighbors allows for a simple l*w to calculate size.
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b9bc23566f
commit
fc4c1c820b
37
rectangle.go
37
rectangle.go
@ -1,6 +1,9 @@
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package rect
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import "math"
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import (
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"math"
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"sort"
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)
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type Rectangle struct {
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P1, P2, P3, P4 Point
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@ -22,3 +25,35 @@ func (r Rectangle) IsRect() bool {
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dd4 := math.Sqrt(math.Abs(cx-r.P4.X)) + math.Sqrt(math.Abs(cy-r.P4.Y))
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return dd1 == dd2 && dd1 == dd3 && dd1 == dd4
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}
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func (r Rectangle) Neighbors(p Point) (Point, Point) {
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keys := []float64{distance(r.P1, p), distance(r.P2, p), distance(r.P3, p), distance(r.P4, p)}
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sort.Float64s(keys)
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n := []Point{}
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d := distance(r.P1, p)
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if keys[1] == d || keys[2] == d {
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n = append(n, r.P1)
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}
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d = distance(r.P2, p)
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if keys[1] == d || keys[2] == d {
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n = append(n, r.P2)
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}
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d = distance(r.P3, p)
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if keys[1] == d || keys[2] == d {
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n = append(n, r.P3)
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}
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d = distance(r.P4, p)
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if keys[1] == d || keys[2] == d {
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n = append(n, r.P4)
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}
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return n[0], n[1]
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}
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func (r Rectangle) Size() float64 {
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n1, n2 := r.Neighbors(r.P1)
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return distance(r.P1, n1) * distance(r.P1, n2)
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}
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//
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//func Containment(r1, r2, Rectangle) bool {
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//}
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@ -27,3 +27,28 @@ func TestIsRect(t *testing.T) {
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}
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}
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func TestSize(t *testing.T) {
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var isRectTests = []struct {
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r Rectangle
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expected float64
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}{
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{Rectangle{P1: Point{1, 1}, P2: Point{1, 2}, P3: Point{2, 1}, P4: Point{2, 2}}, 1},
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{Rectangle{P1: Point{0, 0}, P2: Point{0, 1}, P3: Point{1, 0}, P4: Point{1, 1}}, 1},
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{Rectangle{P1: Point{0, 0}, P2: Point{0, -1}, P3: Point{-1, 0}, P4: Point{-1, -1}}, 1},
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{Rectangle{P1: Point{1.5, 1.5}, P2: Point{1.5, 3.5}, P3: Point{3.5, 1.5}, P4: Point{3.5, 3.5}}, 4},
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{Rectangle{P1: Point{0, 0}, P2: Point{0, 3}, P3: Point{2, 0}, P4: Point{2, 3}}, 6},
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{Rectangle{P1: Point{0, 0}, P2: Point{0, 100}, P3: Point{100, 0}, P4: Point{100, 100}}, 10000},
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}
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for _, rt := range isRectTests {
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actual := rt.r.Size()
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if actual != rt.expected {
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t.Errorf(
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"failed spiral:\n\texpected: %d\n\t actual: %d",
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rt.expected,
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actual,
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)
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}
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}
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}
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